rust/crates/rust-analyzer/src/lsp_utils.rs
2021-09-04 16:56:23 +03:00

392 lines
14 KiB
Rust
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

//! Utilities for LSP-related boilerplate code.
use std::{error::Error, ops::Range, sync::Arc};
use ide_db::base_db::Cancelled;
use lsp_server::Notification;
use crate::{
from_proto,
global_state::GlobalState,
line_index::{LineEndings, LineIndex, OffsetEncoding},
LspError,
};
pub(crate) fn invalid_params_error(message: String) -> LspError {
LspError { code: lsp_server::ErrorCode::InvalidParams as i32, message }
}
pub(crate) fn is_cancelled(e: &(dyn Error + 'static)) -> bool {
e.downcast_ref::<Cancelled>().is_some()
}
pub(crate) fn notification_is<N: lsp_types::notification::Notification>(
notification: &Notification,
) -> bool {
notification.method == N::METHOD
}
#[derive(Debug, Eq, PartialEq)]
pub(crate) enum Progress {
Begin,
Report,
End,
}
impl Progress {
pub(crate) fn fraction(done: usize, total: usize) -> f64 {
assert!(done <= total);
done as f64 / total.max(1) as f64
}
}
impl GlobalState {
pub(crate) fn show_message(&mut self, typ: lsp_types::MessageType, message: String) {
let message = message;
self.send_notification::<lsp_types::notification::ShowMessage>(
lsp_types::ShowMessageParams { typ, message },
)
}
/// rust-analyzer is resilient -- if it fails, this doesn't usually affect
/// the user experience. Part of that is that we deliberately hide panics
/// from the user.
///
/// We do however want to pester rust-analyzer developers with panics and
/// other "you really gotta fix that" messages. The current strategy is to
/// be noisy for "from source" builds or when profiling is enabled.
///
/// It's unclear if making from source `cargo xtask install` builds more
/// panicky is a good idea, let's see if we can keep our awesome bleeding
/// edge users from being upset!
pub(crate) fn poke_rust_analyzer_developer(&mut self, message: String) {
let from_source_build = env!("REV").contains("dev");
let profiling_enabled = std::env::var("RA_PROFILE").is_ok();
if from_source_build || profiling_enabled {
self.show_message(lsp_types::MessageType::Error, message)
}
}
pub(crate) fn report_progress(
&mut self,
title: &str,
state: Progress,
message: Option<String>,
fraction: Option<f64>,
) {
if !self.config.work_done_progress() {
return;
}
let percentage = fraction.map(|f| {
assert!(0.0 <= f && f <= 1.0);
(f * 100.0) as u32
});
let token = lsp_types::ProgressToken::String(format!("rustAnalyzer/{}", title));
let work_done_progress = match state {
Progress::Begin => {
self.send_request::<lsp_types::request::WorkDoneProgressCreate>(
lsp_types::WorkDoneProgressCreateParams { token: token.clone() },
|_, _| (),
);
lsp_types::WorkDoneProgress::Begin(lsp_types::WorkDoneProgressBegin {
title: title.into(),
cancellable: None,
message,
percentage,
})
}
Progress::Report => {
lsp_types::WorkDoneProgress::Report(lsp_types::WorkDoneProgressReport {
cancellable: None,
message,
percentage,
})
}
Progress::End => {
lsp_types::WorkDoneProgress::End(lsp_types::WorkDoneProgressEnd { message })
}
};
self.send_notification::<lsp_types::notification::Progress>(lsp_types::ProgressParams {
token,
value: lsp_types::ProgressParamsValue::WorkDone(work_done_progress),
});
}
}
pub(crate) fn apply_document_changes(
old_text: &mut String,
content_changes: Vec<lsp_types::TextDocumentContentChangeEvent>,
) {
let mut line_index = LineIndex {
index: Arc::new(ide::LineIndex::new(old_text)),
// We don't care about line endings or offset encoding here.
endings: LineEndings::Unix,
encoding: OffsetEncoding::Utf16,
};
// The changes we got must be applied sequentially, but can cross lines so we
// have to keep our line index updated.
// Some clients (e.g. Code) sort the ranges in reverse. As an optimization, we
// remember the last valid line in the index and only rebuild it if needed.
// The VFS will normalize the end of lines to `\n`.
enum IndexValid {
All,
UpToLineExclusive(u32),
}
impl IndexValid {
fn covers(&self, line: u32) -> bool {
match *self {
IndexValid::UpToLineExclusive(to) => to > line,
_ => true,
}
}
}
let mut index_valid = IndexValid::All;
for change in content_changes {
match change.range {
Some(range) => {
if !index_valid.covers(range.end.line) {
line_index.index = Arc::new(ide::LineIndex::new(old_text));
}
index_valid = IndexValid::UpToLineExclusive(range.start.line);
let range = from_proto::text_range(&line_index, range);
old_text.replace_range(Range::<usize>::from(range), &change.text);
}
None => {
*old_text = change.text;
index_valid = IndexValid::UpToLineExclusive(0);
}
}
}
}
/// Checks that the edits inside the completion and the additional edits do not overlap.
/// LSP explicitly forbids the additional edits to overlap both with the main edit and themselves.
pub(crate) fn all_edits_are_disjoint(
completion: &lsp_types::CompletionItem,
additional_edits: &[lsp_types::TextEdit],
) -> bool {
let mut edit_ranges = Vec::new();
match completion.text_edit.as_ref() {
Some(lsp_types::CompletionTextEdit::Edit(edit)) => {
edit_ranges.push(edit.range);
}
Some(lsp_types::CompletionTextEdit::InsertAndReplace(edit)) => {
let replace = edit.replace;
let insert = edit.insert;
if replace.start != insert.start
|| insert.start > insert.end
|| insert.end > replace.end
{
// insert has to be a prefix of replace but it is not
return false;
}
edit_ranges.push(replace);
}
None => {}
}
if let Some(additional_changes) = completion.additional_text_edits.as_ref() {
edit_ranges.extend(additional_changes.iter().map(|edit| edit.range));
};
edit_ranges.extend(additional_edits.iter().map(|edit| edit.range));
edit_ranges.sort_by_key(|range| (range.start, range.end));
edit_ranges
.iter()
.zip(edit_ranges.iter().skip(1))
.all(|(previous, next)| previous.end <= next.start)
}
#[cfg(test)]
mod tests {
use lsp_types::{
CompletionItem, CompletionTextEdit, InsertReplaceEdit, Position, Range,
TextDocumentContentChangeEvent,
};
use super::*;
#[test]
fn test_apply_document_changes() {
macro_rules! c {
[$($sl:expr, $sc:expr; $el:expr, $ec:expr => $text:expr),+] => {
vec![$(TextDocumentContentChangeEvent {
range: Some(Range {
start: Position { line: $sl, character: $sc },
end: Position { line: $el, character: $ec },
}),
range_length: None,
text: String::from($text),
}),+]
};
}
let mut text = String::new();
apply_document_changes(&mut text, vec![]);
assert_eq!(text, "");
apply_document_changes(
&mut text,
vec![TextDocumentContentChangeEvent {
range: None,
range_length: None,
text: String::from("the"),
}],
);
assert_eq!(text, "the");
apply_document_changes(&mut text, c![0, 3; 0, 3 => " quick"]);
assert_eq!(text, "the quick");
apply_document_changes(&mut text, c![0, 0; 0, 4 => "", 0, 5; 0, 5 => " foxes"]);
assert_eq!(text, "quick foxes");
apply_document_changes(&mut text, c![0, 11; 0, 11 => "\ndream"]);
assert_eq!(text, "quick foxes\ndream");
apply_document_changes(&mut text, c![1, 0; 1, 0 => "have "]);
assert_eq!(text, "quick foxes\nhave dream");
apply_document_changes(
&mut text,
c![0, 0; 0, 0 => "the ", 1, 4; 1, 4 => " quiet", 1, 16; 1, 16 => "s\n"],
);
assert_eq!(text, "the quick foxes\nhave quiet dreams\n");
apply_document_changes(&mut text, c![0, 15; 0, 15 => "\n", 2, 17; 2, 17 => "\n"]);
assert_eq!(text, "the quick foxes\n\nhave quiet dreams\n\n");
apply_document_changes(
&mut text,
c![1, 0; 1, 0 => "DREAM", 2, 0; 2, 0 => "they ", 3, 0; 3, 0 => "DON'T THEY?"],
);
assert_eq!(text, "the quick foxes\nDREAM\nthey have quiet dreams\nDON'T THEY?\n");
apply_document_changes(&mut text, c![0, 10; 1, 5 => "", 2, 0; 2, 12 => ""]);
assert_eq!(text, "the quick \nthey have quiet dreams\n");
text = String::from("❤️");
apply_document_changes(&mut text, c![0, 0; 0, 0 => "a"]);
assert_eq!(text, "a❤");
text = String::from("a\nb");
apply_document_changes(&mut text, c![0, 1; 1, 0 => "\nțc", 0, 1; 1, 1 => "d"]);
assert_eq!(text, "adcb");
text = String::from("a\nb");
apply_document_changes(&mut text, c![0, 1; 1, 0 => "ț\nc", 0, 2; 0, 2 => "c"]);
assert_eq!(text, "ațc\ncb");
}
#[test]
fn empty_completion_disjoint_tests() {
let empty_completion =
CompletionItem::new_simple("label".to_string(), "detail".to_string());
let disjoint_edit_1 = lsp_types::TextEdit::new(
Range::new(Position::new(2, 2), Position::new(3, 3)),
"new_text".to_string(),
);
let disjoint_edit_2 = lsp_types::TextEdit::new(
Range::new(Position::new(3, 3), Position::new(4, 4)),
"new_text".to_string(),
);
let joint_edit = lsp_types::TextEdit::new(
Range::new(Position::new(1, 1), Position::new(5, 5)),
"new_text".to_string(),
);
assert!(
all_edits_are_disjoint(&empty_completion, &[]),
"Empty completion has all its edits disjoint"
);
assert!(
all_edits_are_disjoint(
&empty_completion,
&[disjoint_edit_1.clone(), disjoint_edit_2.clone()]
),
"Empty completion is disjoint to whatever disjoint extra edits added"
);
assert!(
!all_edits_are_disjoint(
&empty_completion,
&[disjoint_edit_1, disjoint_edit_2, joint_edit]
),
"Empty completion does not prevent joint extra edits from failing the validation"
);
}
#[test]
fn completion_with_joint_edits_disjoint_tests() {
let disjoint_edit = lsp_types::TextEdit::new(
Range::new(Position::new(1, 1), Position::new(2, 2)),
"new_text".to_string(),
);
let disjoint_edit_2 = lsp_types::TextEdit::new(
Range::new(Position::new(2, 2), Position::new(3, 3)),
"new_text".to_string(),
);
let joint_edit = lsp_types::TextEdit::new(
Range::new(Position::new(1, 1), Position::new(5, 5)),
"new_text".to_string(),
);
let mut completion_with_joint_edits =
CompletionItem::new_simple("label".to_string(), "detail".to_string());
completion_with_joint_edits.additional_text_edits =
Some(vec![disjoint_edit.clone(), joint_edit.clone()]);
assert!(
!all_edits_are_disjoint(&completion_with_joint_edits, &[]),
"Completion with disjoint edits fails the validation even with empty extra edits"
);
completion_with_joint_edits.text_edit =
Some(CompletionTextEdit::Edit(disjoint_edit.clone()));
completion_with_joint_edits.additional_text_edits = Some(vec![joint_edit.clone()]);
assert!(
!all_edits_are_disjoint(&completion_with_joint_edits, &[]),
"Completion with disjoint edits fails the validation even with empty extra edits"
);
completion_with_joint_edits.text_edit =
Some(CompletionTextEdit::InsertAndReplace(InsertReplaceEdit {
new_text: "new_text".to_string(),
insert: disjoint_edit.range,
replace: disjoint_edit_2.range,
}));
completion_with_joint_edits.additional_text_edits = Some(vec![joint_edit]);
assert!(
!all_edits_are_disjoint(&completion_with_joint_edits, &[]),
"Completion with disjoint edits fails the validation even with empty extra edits"
);
}
#[test]
fn completion_with_disjoint_edits_disjoint_tests() {
let disjoint_edit = lsp_types::TextEdit::new(
Range::new(Position::new(1, 1), Position::new(2, 2)),
"new_text".to_string(),
);
let disjoint_edit_2 = lsp_types::TextEdit::new(
Range::new(Position::new(2, 2), Position::new(3, 3)),
"new_text".to_string(),
);
let joint_edit = lsp_types::TextEdit::new(
Range::new(Position::new(1, 1), Position::new(5, 5)),
"new_text".to_string(),
);
let mut completion_with_disjoint_edits =
CompletionItem::new_simple("label".to_string(), "detail".to_string());
completion_with_disjoint_edits.text_edit = Some(CompletionTextEdit::Edit(disjoint_edit));
let completion_with_disjoint_edits = completion_with_disjoint_edits;
assert!(
all_edits_are_disjoint(&completion_with_disjoint_edits, &[]),
"Completion with disjoint edits is valid"
);
assert!(
!all_edits_are_disjoint(&completion_with_disjoint_edits, &[joint_edit]),
"Completion with disjoint edits and joint extra edit is invalid"
);
assert!(
all_edits_are_disjoint(&completion_with_disjoint_edits, &[disjoint_edit_2]),
"Completion with disjoint edits and joint extra edit is valid"
);
}
}